CN209981699U - Assembling device for power socket protective cover - Google Patents

Abstract

The utility model relates to the technical field of power socket assembly, in particular to an assembly device of a power socket protective cover, which comprises a positioning component, a power socket feeding component, a protective cover feeding component, a rotating shaft feeding component and a blanking component, the positioning component comprises a positioning block and a positioning groove which is arranged on the positioning block and is matched with the power socket, the power socket feeding assembly comprises a power socket feeding mechanism and a power socket conveying arm capable of conveying the power socket to the positioning groove, the protective cover feeding assembly comprises a protective cover feeding mechanism and a protective cover conveying arm capable of conveying the protective cover to the positioning groove, the rotating shaft feeding assembly comprises a rotating shaft feeding mechanism and a driving mechanism for driving the rotating shaft to penetrate through the protective cover and the power socket, the blanking assembly comprises a blanking channel and a blanking arm for taking out the power socket from the positioning groove and conveying the power socket to the blanking channel. Adopt above-mentioned scheme, provide an degree of automation height, assembly quality is high.

Description

Assembling device for power socket protective cover

Technical Field

The utility model relates to a supply socket assembly technical field, especially an assembly quality for assembling supply socket visor.

Background

The automobile interior decoration is generally provided with a power socket, the power socket can be used for being plugged with a cigarette lighter or a vehicle-mounted charger and the like, in order to avoid the occurrence of a series of conditions such as dust accumulation or water inflow or wrong plugging of children, a protective cover is generally arranged on the power socket and is in rotating fit with the power socket, so the protective cover is connected with the power socket through a rotating shaft.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides an automatic degree is high, assembly efficiency is high power socket visor's assembly quality.

In order to realize the purpose, the utility model discloses a technical scheme is: the utility model provides an assembly quality of supply socket visor, includes locating component, supply socket feeding component, visor feeding component, pivot feeding component and unloading subassembly, locating component includes the locating piece and sets up on the locating piece with the constant head tank of supply socket adaptation, supply socket feeding component includes supply socket feed mechanism and can transport the supply socket transport arm to constant head tank department with supply socket, visor feeding component includes visor feed mechanism and can transport the visor transport arm to constant head tank department with the visor, pivot feeding component includes pivot feed mechanism and drive pivot and wears to establish the actuating mechanism on visor and supply socket, the unloading subassembly includes the unloading passageway and takes out the unloading arm that transports the unloading passageway from the constant head tank with supply socket.

In the technical scheme, the positioning component is used for fixing the power socket and the protective cover to facilitate the insertion of the rotating shaft, the power socket feeding mechanism is used for conveying the power socket, the power socket conveying arm is used for transferring the power socket on the power socket feeding mechanism to the positioning component to enable the power socket to be arranged in the positioning groove, the protective cover feeding mechanism is used for conveying the protective cover, the protective cover conveying arm is used for transferring the protective cover on the protective cover feeding mechanism to the power socket to enable the protective cover and the power socket protective cover to be combined together, the rotating shaft feeding mechanism is used for conveying the rotating shaft, shaft holes for the rotating shaft to penetrate through are formed in the protective cover and the power socket, after the protective cover and the power socket are covered, the two shaft holes are located on the same axis, the protective cover and the power socket are connected together through the rotating shaft penetrating through the shaft holes, the assembled power, the assembly efficiency is high.

As a further setting of the utility model, supply socket feed mechanism includes supply socket feedstock channel, the supply socket who sets up in supply socket feedstock channel's exit carries the piece and drives the first driving piece that supply socket carried the piece and removed, supply socket carries the power socket bearing chamber that is provided with on the piece with the supply socket adaptation, supply socket carries the piece to have two position relations, respectively for supply socket bearing chamber with supply socket feedstock channel align and when intercommunication connect the material position and with supply socket move the pay-off position of supply socket transport arm below, supply socket carries one side of piece towards supply socket feedstock channel to become the shutoff setting with supply socket feedstock channel's discharge gate when the pay-off position.

In the technical scheme, a feed port of a feed channel of a power socket is connected with a corresponding vibration disc, each power socket sequentially enters the feed channel of the power socket through the vibration disc, the feed channel of the power socket is a through groove matched with the power socket, a power socket bearing cavity is a cavity only enough to load one power socket, when the power socket bearing cavity is aligned and communicated with the feed channel of the power socket, the foremost power socket on the feed channel of the power socket is pushed into the power socket bearing cavity step by step, a power socket conveying block moves to a feeding position after receiving the power socket at a receiving position, so that a power socket conveying arm can conveniently take materials, when the power socket bearing cavity is not aligned with the feed channel of the power socket, the side edge of the power socket conveying block blocks a discharge port of the feed channel of the power socket to form spacing fit, and the power socket on the feed channel of the power socket is prevented, supply socket feedstock channel's top is provided with supply socket baffle, supply socket baffle sets up along supply socket feedstock channel's axial extension, supply socket baffle sets up for the slope of keeping away from to supply socket feedstock channel towards the position that supply socket feedstock channel's one side corresponds supply socket feedstock channel's feed inlet and discharge gate, supply socket baffle sets up to avoid supply socket to upwards deviate from supply socket feedstock channel, the slope setting of tip is kept off to avoid feeding and the ejection of compact, and is simple structure.

As a further setting of the utility model, visor feed mechanism includes visor feedstock channel, the visor that sets up in the exit of visor feedstock channel carries the piece and drives the second driving piece that visor transport piece removed, be provided with the visor bearing chamber with the visor adaptation on the visor transport piece, visor transport piece has two position relations, respectively for visor bearing chamber align with visor feedstock channel and connect the material position when feeding position of arm below is carried to the visor when feeding position to the material position that connects and remove the visor, visor transport piece becomes the shutoff setting with visor feedstock channel's discharge gate when feeding position towards one side of visor feedstock channel.

In the technical scheme, the feed inlet of the protective cover feed channel is connected with the corresponding vibrating disc, each protective cover sequentially enters the protective cover feed channel through the vibrating disc, the protective cover feed channel is a through groove matched with the protective cover, the through groove is provided with a guide groove matched with the hinged part and the brim part of the protective cover to prevent the protective cover from rotating, the protective cover bearing cavity is a cavity only enough to load one protective cover, when the protective cover bearing cavity is aligned and communicated with the protective cover feed channel, the foremost protective cover on the protective cover feed channel enters the protective cover bearing cavity through step pushing, the protective cover conveying block moves to the feed position after receiving the protective cover at the material receiving position, so that the protective cover conveying arm can conveniently take materials, when the protective cover bearing cavity is not aligned with the protective cover feed channel, the side edge of the protective cover conveying block the discharge port of, the protective cover on the protective cover feeding channel is prevented from continuously moving forward, and the structure is simple.

As a further setting of the utility model, visor feedstock channel's top is provided with the visor baffle, and visor baffle sets up along visor feedstock channel's axial extension, and the visor baffle sets up for the slope of keeping away from to visor feedstock channel towards the feed inlet that visor feedstock channel's one side corresponds visor feedstock channel and the position of discharge gate.

Among the above-mentioned technical scheme, the setting of visor baffle is in order to avoid the visor upwards to deviate from visor feed channel, and the slope setting of tip is in order to avoid feeding and ejection of compact to be blocked to simple structure.

As a further setting of the utility model, pivot feed mechanism includes pivot feedstock channel, the third driving piece that the piece and the drive pivot transport block removed are carried in the pivot of setting in pivot feedstock channel's exit, be provided with the pivot bearing chamber with the pivot adaptation on the pivot transport block, the pivot is carried the piece and is had two position relations, respectively for the pivot bearing chamber with pivot feedstock channel align and feed through the time connect the material position and with the pivot pay-off position of moving the constant head tank side, the pivot is carried one side of piece orientation pivot feedstock channel and is become the shutoff setting with pivot feedstock channel's discharge gate when the pay-off position.

Among the above-mentioned technical scheme, pivot feedstock channel's feed inlet is connected with the vibration dish that corresponds, each pivot gets into pivot feedstock channel in proper order through the vibration dish, pivot feedstock channel is the logical groove with the pivot adaptation, the pivot bears the chamber and is the cavity that only can load a pivot, when the pivot bears the chamber and aligns with pivot feedstock channel and switches on, the pivot that the pivot feedstock channel was last foremost gets into the pivot and bears the chamber through passing step by step, the pivot transport block is received the pivot after the material receiving position and is removed toward the pay-off position, make things convenient for the actuating mechanism operation, when the pivot bears the chamber and does not align with pivot feedstock channel, the side of pivot transport block is plugged up pivot feedstock channel's discharge gate and is formed spacing cooperation, avoid the pivot on the pivot feedstock channel to continue to advance.

As a further setting of the utility model, actuating mechanism is including setting up the ejector pin of the side of locating piece and the fourth driver that the drive ejector pin removed, and the pivot is carried the piece and is located between ejector pin and the location, and the pivot when ejector pin and pay-off position bears the weight of the chamber and aligns.

Among the above-mentioned technical scheme, the effect of ejector pin is in pushing the pivot in the shaft hole after supply socket and visor lid close, pivot and shaft hole alignment setting during the pay-off position, make things convenient for the ejector pin top to go into, be equipped with a guiding hole between preferred shaft hole and the pivot bearing chamber, this guiding hole and the coaxial setting in shaft hole, because of the pivot bearing chamber has certain space between with the shaft hole, if there is not the guiding hole, when the ejector pin launches the pivot bearing chamber, because do not rely on the pivot and probably drop or skew, unable accurate insertion shaft hole, the guiding hole can be the setting on locating piece or other parts.

As the utility model discloses a further setting, the corresponding both sides of constant head tank opening part are provided with stopper and kicking block respectively, and the stopper is fixed on the locating piece, and the kicking block is realized by the cylinder drive and is cooperated with the centre gripping of stopper.

In the technical scheme, the limiting block and the ejecting block are arranged to fix the power socket and the protective cover, so that the protective cover is prevented from moving, and the rotating shaft can be conveniently and accurately inserted.

As the utility model discloses a further setting, including the guide rail, supply socket carries arm and visor to carry the arm and all slides through the slider and set up on the guide rail, and the slider is driven by the cylinder.

Among the above-mentioned technical scheme, supply socket carries arm and visor and carries the arm to connect on same guide rail, saves space, practices thrift the cost.

As the utility model discloses a further setting, be provided with pneumatic clamping jaw on the supply socket carries the arm, be provided with first suction nozzle on the visor carries the arm, is provided with the second suction nozzle on the unloading arm.

Among the above-mentioned technical scheme, the claw and the supply socket adaptation of pneumatic clamping jaw, the setting of first suction nozzle and second suction nozzle can conveniently snatch the part, simple structure, convenient operation.

As a further setting of the utility model, the bottom surface of unloading passageway is the slope setting.

Among the above-mentioned technical scheme, make things convenient for the material gliding ejection of compact.

The present invention will be further described with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic structural diagram of a belt assembly according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of an embodiment of the present invention without the mounting member;

FIG. 3 is an exploded view of the rotary shaft feeding assembly and the positioning assembly according to the embodiment of the present invention;

fig. 4 is an exploded view of a power socket feeding assembly according to an embodiment of the present invention;

fig. 5 is an exploded view of a feeding assembly of a protective cover according to an embodiment of the present invention.

Detailed Description

The specific embodiment of the utility model is shown in figures 1-5, an assembling device for a power socket protective cover comprises a positioning component 1, a power socket feeding component 2, a protective cover feeding component 3, a rotating shaft feeding component 4 and a blanking component 5, the positioning assembly 1 comprises a positioning block 11 and a positioning groove 111 arranged on the positioning block 11 and adapted to the power socket, the power socket feeding assembly 2 comprises a power socket feeding mechanism and a power socket conveying arm 21 for conveying the power socket to the positioning groove 111, the protective cover feeding assembly 3 comprises a protective cover feeding mechanism and a protective cover conveying arm 31 capable of conveying the protective cover to the positioning groove 111, the rotating shaft feeding component 4 comprises a rotating shaft feeding mechanism and a driving mechanism for driving the rotating shaft to penetrate through the protective cover and the power socket, the blanking assembly 5 comprises a blanking channel 51 and a blanking arm 52 for taking the power socket out of the positioning groove 111 and conveying the power socket to the blanking channel 51. The positioning component 1 is used for fixing a power socket and a protective cover, the insertion of a rotating shaft is facilitated, the power socket feeding mechanism is used for conveying the power socket, the power socket conveying arm 21 is used for transferring the power socket on the power socket feeding mechanism to the positioning component 1, the power socket is arranged in the positioning groove 111, the protective cover feeding mechanism is used for conveying the protective cover, the protective cover conveying arm 31 is used for transferring the protective cover on the protective cover feeding mechanism to the power socket, the protective cover and the power socket protective cover are combined together, the rotating shaft feeding mechanism is used for conveying the rotating shaft, shaft holes for the rotating shaft to penetrate through are formed in the protective cover and the power socket, after the protective cover and the power socket are covered, the two shaft holes are located on the same axis, the protective cover and the power socket are connected together through the rotating shaft penetrating through the shaft holes, the assembled power socket and the assembled protective cover, the assembly efficiency is high.

The power socket feeding mechanism comprises a power socket feeding channel 22, a power socket conveying block 23 arranged at an outlet of the power socket feeding channel 22 and a first driving piece 24 for driving the power socket conveying block 23 to move, a power socket bearing cavity 231 matched with a power socket is arranged on the power socket conveying block 23, the power socket conveying block 23 has two position relations which are respectively a material receiving position when the power socket bearing cavity 231 is aligned and communicated with the power socket feeding channel 22 and a material feeding position when the power socket is moved to the lower portion of the power socket conveying arm 21, and one side, facing the power socket feeding channel 22, of the power socket conveying block 23 is in blocking arrangement with a discharge hole of the power socket feeding channel 22 when the material feeding position. The feed inlet of the power socket feed channel 22 is connected with a corresponding vibration disc, each power socket sequentially enters the power socket feed channel 22 through the vibration disc, the power socket feed channel 22 is a through groove matched with a power socket, guide plates for preventing the power socket from rotating are arranged on the through groove, the power socket bearing cavity 231 is a cavity only enough for loading one power socket, when the power socket bearing cavity 231 is aligned and communicated with the power socket feed channel 22, the power socket at the forefront of the power socket feed channel 22 enters the power socket bearing cavity 231 through step pushing, the power socket conveying block 23 moves to the feeding position after receiving the power socket at the receiving position, so that a power socket conveying arm 21 can conveniently take materials, when the power socket bearing cavity 231 is not aligned with the power socket feed channel 22, the side edge of the power socket conveying block 23 blocks the discharge hole of the power socket feed channel 22 to form limit matching, avoid supply socket on supply socket feedstock channel 22 to continue to advance, supply socket feedstock channel 22's top is provided with supply socket baffle 25, supply socket baffle 25 sets up along supply socket feedstock channel 22's axial extension, supply socket baffle 25 corresponds the position of supply socket feedstock channel 22's feed inlet and discharge gate towards supply socket feedstock channel 22's one side and sets up for the slope of keeping away from to supply socket feedstock channel 22, supply socket baffle 25's setting is to avoid supply socket to upwards deviate from supply socket feedstock channel 22, the slope setting of tip 251 is to avoid feeding and the ejection of compact to be kept off, moreover, the steam generator is simple in structure.

The protective cover feeding mechanism comprises a protective cover feeding channel 32, a protective cover conveying block 33 arranged at an outlet of the protective cover feeding channel 32 and a second driving piece 34 for driving the protective cover conveying block 33 to move, a protective cover bearing cavity 331 matched with the protective cover is arranged on the protective cover conveying block 33, the protective cover conveying block 33 has two position relations which are respectively a material receiving position when the protective cover bearing cavity 331 is aligned and communicated with the protective cover feeding channel 32 and a material feeding position for moving the protective cover to the lower side of the protective cover conveying arm 31, and one side, facing the protective cover feeding channel 32, of the protective cover conveying block 33 is in blocking arrangement with a discharge hole of the protective cover feeding channel 32 at the material feeding position. The feed inlet of the protective cover feed channel 32 is connected with the corresponding vibration disk, each protective cover sequentially enters the protective cover feed channel 32 through the vibration disk, the protective cover feed channel 32 is a through groove matched with the protective cover, a guide groove matched with the hinge joint of the protective cover and the brim of the cap is arranged on the through groove to prevent the protective cover from rotating, the protective cover bearing cavity 331 is a cavity only enough to load one protective cover, when the protective cover bearing cavity 331 is aligned and communicated with the protective cover feed channel 32, the foremost protective cover on the protective cover feed channel 32 enters the protective cover bearing cavity 331 through step pushing, the protective cover conveying block 33 moves to the feeding position after receiving the protective cover at the material receiving position, the protective cover conveying arm 31 can conveniently take materials, when the protective cover bearing cavity 331 is not aligned with the protective cover feed channel 32, the side protective cover of the protective cover conveying block 33 blocks the discharge port, the protective cover on the protective cover feeding channel 32 is prevented from continuously advancing, and the structure is simple.

A protective cover baffle 35 is arranged above the protective cover feeding channel 32, the protective cover baffle 35 extends along the axial direction of the protective cover feeding channel 32, and the positions of one side of the protective cover baffle 35 facing the protective cover feeding channel 32, which correspond to the feeding hole and the discharging hole of the protective cover feeding channel 32, are inclined away from the protective cover feeding channel 32. The protective cover baffle 35 is arranged to prevent the protective cover from falling out of the protective cover feeding channel 32 upwards, and the end 351 is obliquely arranged to prevent the feeding and discharging from being blocked, so that the structure is simple.

The rotating shaft feeding mechanism comprises a rotating shaft feeding channel 41, a rotating shaft conveying block 42 arranged at an outlet of the rotating shaft feeding channel 41 and a third driving piece 43 for driving the rotating shaft conveying block 42 to move, a rotating shaft bearing cavity 421 matched with a rotating shaft is arranged on the rotating shaft conveying block 42, the rotating shaft conveying block 42 has two position relations, namely a material receiving position when the rotating shaft bearing cavity 421 is aligned and communicated with the rotating shaft feeding channel 41 and a material feeding position when the rotating shaft is moved to the side edge of the positioning groove 111, and one side, facing the rotating shaft feeding channel 41, of the rotating shaft conveying block 42 is in blocking arrangement with a discharge hole of the rotating shaft feeding channel 41 when the material feeding position. The feed inlet of pivot feedstock channel 41 is connected with the vibration dish that corresponds, each pivot gets into pivot feedstock channel 41 through the vibration dish in proper order, pivot feedstock channel 41 is the logical groove with the pivot adaptation, the pivot bears the cavity 421 for just enough loading a pivot, when the pivot bears the cavity 421 and the pivot feedstock channel 41 aligns and switches on, the pivot that the foremost goes up in pivot feedstock channel 41 passes through step and gets into pivot and bears the cavity 421, pivot transport block 42 is received the pivot after the material receiving position and is removed toward the pay-off position, make things convenient for the actuating mechanism operation, when the pivot bears the cavity 421 and does not align with pivot feedstock channel 41, the discharge gate that pivot feedstock channel 41 was plugged up to the side of pivot transport block 42 forms spacing cooperation, avoid the pivot on the pivot feedstock channel 41 to continue to advance, moreover, the steam generator is simple in.

The driving mechanism comprises a top rod 44 arranged on the side of the positioning block 11 and a fourth driving part 45 for driving the top rod 44 to move, the rotating shaft conveying block 42 is positioned between the top rod 44 and the positioning, and the top rod 44 is aligned with the rotating shaft bearing cavity 421 in the feeding position. The effect of ejector pin 44 is in pushing the pivot in the shaft hole after supply socket and visor lid close, pivot and shaft hole alignment setting during the pay-off position, make things convenient for ejector pin 44 to push into, be equipped with a guiding hole between preferred shaft hole and the pivot bears the weight of the chamber 421, this guiding hole and shaft hole coaxial arrangement, have certain space because of pivot bears the weight of between chamber 421 and the shaft hole, if do not have the guiding hole, when ejector pin 44 pushes the pivot and bears the weight of the chamber 421, because do not rely on the pivot and probably drop or skew, unable accurate insertion shaft hole, the guiding hole can be the setting on locating piece 11 or other parts.

The first driving member 24, the second driving member 34, the third driving member 43 and the fourth driving member 45 are all cylinders, oil cylinders or other driving members, and in addition, some necessary detecting members, such as infrared sensors, displacement sensors and the like, are required during the operation of the device to detect whether the power socket, the protective cover and the rotating shaft enter the respective bearing cavities and whether the power socket conveying block 23, the protective cover conveying block 33 and the rotating shaft conveying block 42 move in place, and the like, which are not described in detail herein.

The two corresponding sides of the opening of the positioning groove 111 are respectively provided with a limiting block 12 and an ejector block 13, the limiting block 12 is fixed on the positioning block 11, and the ejector block 13 is driven by an air cylinder 14 to be matched with the limiting block 12 in a clamping manner. The limiting block 12 and the top block 13 are arranged to fix the power socket and the protective cover, so that the protective cover is prevented from moving, the rotating shaft can be conveniently and accurately inserted, the limiting block 12 and the top block 13 are respectively provided with a first cavity 121 and a second cavity 131, the first cavity 121 and the second cavity 131 are matched with two corresponding sides of the protective cover in an adaptive mode, the first cavity 121 and the second cavity 131 are both arc-shaped, a first notch matched with the hinged portion of the protective cover is formed in the bottom surface of the first cavity 121, and a second notch matched with the brim of the protective cover is formed in the bottom surface of the second cavity 131.

The power socket conveying arm 21 and the protective cover conveying arm 31 are arranged on the guide rail 6 in a sliding mode through sliding blocks 61, and the sliding blocks 61 are driven by air cylinders 62. The power socket conveying arm 21 and the protective cover conveying arm 31 are connected to the same guide rail 6, so that the space and the cost are saved.

The power socket conveying arm 21 is provided with a pneumatic clamping jaw, the protective cover conveying arm 31 is provided with a first suction nozzle, and the blanking arm 52 is provided with a second suction nozzle. The claw parts of the pneumatic clamping jaws are matched with a power socket, the arrangement of the first suction nozzle and the second suction nozzle can facilitate grabbing of components, and the power socket conveying arm 21, the protective cover conveying arm 31 and the blanking arm 52 can be of other grabbing structures.

The bottom surface of the blanking passage 51 is inclined. The material can slide down and be discharged conveniently.

The power socket herein may refer to a complete power socket without a protective cover, or may refer to a power socket housing connected to the protective cover.

The utility model discloses do not confine the above-mentioned embodiment to, the general technical personnel in this field can adopt other multiple embodiments to implement according to the utility model discloses a, perhaps all adopt the utility model discloses a design structure and thinking do simple change or change, all fall into the utility model discloses a protection scope.

Claims (10)

1. An assembly quality of supply socket visor which characterized in that: including locating component, supply socket feeding component, visor feeding component, pivot feeding component and unloading subassembly, locating component includes the locating piece and sets up on the locating piece with the constant head tank of supply socket adaptation, supply socket feeding component includes supply socket feed mechanism and can transports the supply socket transport arm to the constant head tank department with supply socket, visor feeding component includes visor feed mechanism and can transports the visor transport arm to the constant head tank department with the visor, pivot feeding component includes pivot feed mechanism and drive pivot and wears to establish the actuating mechanism on visor and supply socket, unloading subassembly includes the unloading passageway and takes out the unloading arm that transports to the unloading passageway from the constant head tank with supply socket.

2. The assembly apparatus of claim 1, wherein: supply socket feed mechanism includes supply socket feedstock channel, the supply socket who sets up in supply socket feedstock channel's exit carries the piece and drives the first driving piece that supply socket carried the piece and removes, supply socket carries the power socket that is provided with on the piece with the supply socket adaptation and bears the chamber, supply socket carries the piece to have two position relations, it is the material position that connects when supply socket bears the chamber and aligns and feeds through with supply socket feedstock channel and carries the pay-off position of arm below with supply socket respectively, supply socket carries one side of piece towards supply socket feedstock channel and becomes the shutoff setting with supply socket feedstock channel's discharge gate when the pay-off position.

3. The assembly apparatus of claim 1, wherein: the protective cover feeding mechanism comprises a protective cover feeding channel, a protective cover conveying block arranged at the outlet of the protective cover feeding channel and a second driving piece for driving the protective cover conveying block to move, a protective cover bearing cavity matched with the protective cover is arranged on the protective cover conveying block, the protective cover conveying block has two position relations, namely a material receiving position when the protective cover bearing cavity is aligned and communicated with the protective cover feeding channel and a material feeding position when the protective cover is moved to the lower part of the protective cover conveying arm, and one side, facing the protective cover feeding channel, of the protective cover conveying block is in blocking arrangement with a discharge hole of the protective cover feeding channel when the material feeding position.

4. A device for assembling a protective cover for a power outlet as claimed in claim 3, wherein: the protective cover feeding channel is characterized in that a protective cover baffle is arranged above the protective cover feeding channel, the protective cover baffle extends along the axial direction of the protective cover feeding channel, and the positions, corresponding to the feeding hole and the discharging hole of the protective cover feeding channel, of one side, facing the protective cover feeding channel, of the protective cover baffle are arranged in an inclined mode and far away from the protective cover feeding channel.

5. The assembly apparatus of claim 1, wherein: the pivot feed mechanism includes pivot feedstock channel, the third driving piece that the piece and the drive pivot transport block removed is carried in the pivot of setting in the exit of pivot feedstock channel, be provided with on the pivot transport block with the pivot bearing chamber of pivot adaptation, the pivot is carried the piece and is had two position relations, respectively for the pivot bearing chamber with the pivot feedstock channel align and feed position of connecing the material position and moving the pivot to the constant head tank side when feeding position, the pivot is carried one side of piece orientation pivot feedstock channel and is become the shutoff setting with pivot feedstock channel's discharge gate when feed position.

6. The assembly apparatus of claim 5, wherein: the driving mechanism comprises an ejector rod arranged on the side edge of the positioning block and a fourth driving part for driving the ejector rod to move, the rotating shaft conveying block is located between the ejector rod and the positioning block, and the rotating shaft bearing cavity is aligned to the ejector rod when the ejector rod is at the feeding position.

7. An apparatus for assembling a protective cover for a power outlet as claimed in any one of claims 1 to 6, wherein: the locating groove is characterized in that limiting blocks and ejecting blocks are arranged on two corresponding sides of the opening of the locating groove respectively, the limiting blocks are fixed on the locating blocks, and the ejecting blocks are driven by cylinders to be matched with the limiting blocks in a clamping mode.

8. An apparatus for assembling a protective cover for a power outlet as claimed in any one of claims 1 to 6, wherein: the power socket conveying arm and the protective cover conveying arm are arranged on the guide rail in a sliding mode through sliding blocks, and the sliding blocks are driven by cylinders.

9. An apparatus for assembling a protective cover for a power outlet as claimed in any one of claims 1 to 6, wherein: the power socket conveying arm is provided with a pneumatic clamping jaw, the protective cover conveying arm is provided with a first suction nozzle, and the discharging arm is provided with a second suction nozzle.

10. The assembly apparatus of claim 9, wherein: the bottom surface of the blanking channel is obliquely arranged.

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